Total solder points: 159 Difficulty level: beginner 1 2 3 4 5 advanced
ILLUSTRATED ASSEMBLY MANUAL H8055IP-1
Specifications: • 5 Digital inputs (0= ground, 1= open). On board test buttons pro-
vided. • 2 Analog inputs with attenuation and amplification option. Internal
test +5V provided. • 8 Digital open collector output switches (max 50V/100mA). On
board LED indication. • 2 Analog outputs
0 to 5V, output resistance 1K5. PWM 0 to 100% open collector outputs max 100mA / 40V. On board LED indication.
• General conversion time: 20mS per command • Power supply through USB approx. 70mA. • Diagnostic software and communication DLL included Minimum system: • Pentium class CPU • USB1.0 or higher connection • Windows 98SE or higher (Win NT excluded) • CD ROM player and Mouse
K8055
USB Experiment interface board
2
VELLEMAN Components NV Legen Heirweg 33
9890 Gavere Belgium Europe
www.velleman.be www.velleman-kit.com
This device complies with Part 15 of the FCC Rules provided the enclosed instructions are followed to the letter. Use of the device is subject to the follow-ing conditions: (1) this device must not cause harm-ful interference and (2) the operation of this device should not be influenced by unwanted interference. More information about FCC can be look at http://www.fcc.gov
3
1. Assembly (Skipping this can lead to troubles ! ) Ok, so we have your attention. These hints will help you to make this project success-ful. Read them carefully. 1.1 Make sure you have the right tools: • A good quality soldering iron (25-
40W) with a small tip. • Wipe it often on a wet sponge or cloth, to keep it clean; then apply solder to the
tip, to give it a wet look. This is called ‘thinning’ and will protect the tip, and enables you to make good connections. When solder rolls off the tip, it needs cleaning.
• Thin raisin-core solder. Do not use any flux or grease. • A diagonal cutter to trim excess wires. To avoid injury when cutting excess leads, hold the lead so they cannot fly towards the eyes. • Needle nose pliers, for bending leads, or to hold components in
place. • Small blade and Phillips screwdrivers. A basic range is fine.
For some projects, a basic multi-meter is required, or
might be handy
1.2 Assembly Hints :
⇒ Make sure the skill level matches your experience, to avoid disappointments.
⇒ Follow the instructions carefully. Read and understand the entire step before you perform each operation.
⇒ Perform the assembly in the correct order as stated in this manual
⇒ Position all parts on the PCB (Printed Circuit Board) as shown on the drawings.
⇒ Values on the circuit diagram are subject to changes.
⇒ Values in this assembly guide are correct*
⇒ Use the check-boxes to mark your progress.
⇒ Please read the included information on safety and customer service * Typographical inaccuracies excluded. Always look for possible last minute manual updates, indicated as ‘NOTE’ on a separate leaflet.
0.000
Assembly hints
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1.3 Soldering Hints : Mount the component against the PCB surface and carefully solder the leads
Make sure the solder joints are cone-shaped and shiny
Trim excess leads as close as possible to the solder joint
REMOVE THEM FROM THE TAPE ONE AT A TIME !
AXIAL COMPONENTS ARE TAPED IN THE CORRECT MOUNTING SEQUENCE !
Assembly hints
I
P E
SF
S D
K
N
D
GB
F
NL
C
O
D
E
COD
ICE
COLO
RE
COD
IGO
D
E CO
RES
COD
IGO
D
E CO
L-O
RES
VÄR
I KO
OD
I FÄ
RG
SCH
EMA
FARV
E-KO
DE
FARG
E-KO
DE
FARB
KO
DE
COLO
UR
COD
E CO
DIF
I-CA
TIO
N
DES
CO
U-
LEU
RS
KLEU
RKO
DE
C
O
D
E
0 N
ero
Pret
o N
egro
M
usta
Sv
art
Sort
So
rt
Schw
arz
Bla
ck
Noi
r Zw
art
0
1 M
arro
ne
Cas
tanh
o M
arró
n R
uske
a B
run
Bru
n B
run
Bra
un
Bro
wn
Bru
n B
ruin
1
2 R
osso
En
carn
ado
Roj
o Pu
nain
en
Röd
R
ød
Rød
R
ot
Red
R
ouge
R
ood
2
3 A
ranc
iato
La
ranj
a N
aran
jado
Ora
nssi
Ora
nge
Ora
nge
Ora
nge
Ora
nge
Ora
nge
Ora
nge
Ora
nje
3
4 G
iallo
A
mar
elo
Am
arill
o K
elta
inen
G
ul
Gul
G
ul
Gel
b Y
ello
w
Jaun
e G
eel
4
5 V
erde
V
erde
V
erde
V
ihre
ä G
rön
Grø
n G
rønn
G
rün
Gre
en
Ver
t G
roen
5
6 B
lu
Azu
l A
zul
Sini
nen
Blå
B
lå
Blå
B
lau
Blu
e B
leu
Bla
uw
6
7 V
iola
V
iole
ta
Mor
ado
Purp
pura
Li
la
Vio
let
Vio
let
Vio
let
Purp
le
Vio
let
Paar
s 7
8 G
rigi
o C
inze
nto
Gri
s H
arm
aa
Grå
G
rå
Grå
G
rau
Gre
y G
ris
Gri
js
8
9 B
ianc
o B
ranc
o B
lanc
o V
alko
inen
V
it H
vid
Hvi
dt
Wei
ss
Whi
te
Bla
nc
Wit
9
A
Arg
ento
Pr
atea
do
Plat
a H
opea
Si
lver
Sø
lv
Sølv
Si
lber
Si
lver
A
rgen
t Zi
lver
A
B
Oro
D
oura
do
Oro
K
ulta
G
uld
Gul
d G
uldl
G
old
Gol
d O
r G
oud
B
5%
4K7=
( 4
- 7
- 2
- B
)
1%
4K7=
( 4
- 7 -
0 - 1
- 1
)
CO
LOR
= 2…
5C
OLO
R=
2...5
6
J (2x)
1. Jumper
R1 : 10K (1 - 0 - 3 - B) R2 : 10K (1 - 0 - 3 - B) R3 : 1K (1 - 0 - 2 - B) R4 : 1K (1 - 0 - 2 - B) R5 : 10K (1 - 0 - 3 - B) R6 : 100K (1 - 0 - 4 - B) R7 : 100K (1 - 0 - 4 - B) R10 : 10K (1 - 0 - 3 - B) R11 : 10K (1 - 0 - 3 - B) R12 : 100K (1 - 0 - 4 - B) R13 : 100K (1 - 0 - 4 - B) R14 : 1K5 (1 - 5 - 2 - B) R15 : 1K5 (1 - 5 - 2 - B) R16 : 1K5 (1 - 5 - 2 - B) R17 : 1K5 (1 - 5 - 2 - B) R18 : 1K (1 - 0 - 2 - B) R19 : 1K (1 - 0 - 2 - B) R20 : 10K (1 - 0 - 3 - B) R21 : 10K (1 - 0 - 3 - B) R22 : 10K (1 - 0 - 3 - B) R23 : 10K (1 - 0 - 3 - B)
2. Resistors
R...
R24 : 10K (1 - 0 - 3 - B) R25 : 10K (1 - 0 - 3 - B) R26 : 10K (1 - 0 - 3 - B) R27 : 1K (1 - 0 - 2 - B) R28 : 47K (4 - 7 - 3 - B) R29 : 47K (4 - 7 - 3 - B) R30 : 47K (4 - 7 - 3 - B) R31 : 47K (4 - 7 - 3 - B) R32 : 47K (4 - 7 - 3 - B) R33 : 47K (4 - 7 - 3 - B) R34 : 47K (4 - 7 - 3 - B) R35 : 1K5 (1 - 5 - 2 - B) R36 : 1K (1 - 0 - 2 - B) R37 : 1K (1 - 0 - 2 - B) R38 : 1K (1 - 0 - 2 - B) R39 : 1K (1 - 0 - 2 - B) R40 : 1K (1 - 0 - 2 - B) R41 : 1K (1 - 0 - 2 - B) R42 : 1K (1 - 0 - 2 - B) R43 : 1K (1 - 0 - 2 - B)
Remark:
R8 & R9 are not mounted at this time. 4 Resistors should be left over!
Construction
D1 : 1N4148 D2 : 1N4148
3. Diodes. Check the polarity!
D...CATHODE
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Construction
C1 : 100nF (104, 0.1, u1) C2 : 100nF (104, 0.1, u1) C3 : 100nF (104, 0.1, u1) C4 : 33pF (33) C5 : 33pF (33) C7 : 100nF (104, 0.1, u1)
4. Capacitors
C...
C6 : 220nF/ 50V
8. Capacitors C...
IC1 : 14P IC2 : 18P IC3 : 28P IC4 : 18P
5. IC sockets. Watch the position of the notch!
SW1 SW2 SW3 KRS0610 SW4 SW5
6. Push buttons
SW...
RV1 : 100K RV2 : 100K
7. Potentiometer
LD1 LD2 LD3 LD4 LD5 LD6 3mm RED LD7 LD8 LD9 LD10 LD11
9. LED’s. Watch the polarity!
LD...
CATHODE
8
SK2 : 2P SK3 : 2P SK5 : 2P SK6 : 2P
SK7 : USBB90
11. USB connector
X1 : 6MHz
13. Quartz crystal
X...
SK1 : 3P
SK4 : 2 x 3P
15. Screw connectors
Construction
T1 : BC337 T2 : BC337
10. Transistors
C8 : 4,7µF/50V
12. Electrolytic capaci-tors. Check the polarity !
C...
14. Pin header
9
IC1 : TLV274IN IC2 : ULN2803 IC3 : VK8055
Programmed PIC16C745-IP !
IC4 : ULN2803
16. IC’s. Watch the position of the notch!
PIN 1
1
Construction
SK8 : 5 x 3P
When the input voltage is too low you can amplify it x4 / x15.
A gain of x4 requires a resistance of 3K3 for R8 (input signal 1) and for R9 (input signal 2). A x15 gain requires a resistance of 820ohm.
If you want a different gain factor you can calculate it quite easily using the following formula :
Gain A1 = 1 + (R10/R8) Gain A2 = 1 + (R11/R9)
17. GAIN FACTOR
Mount the rubber feet on the solder side of the PCB, see fig 1.0.
FIG 1.0
18. Rubber feet
10
Connections / settings
2
4 3
1
7 5
6
8 9
10
19. Connections / settings
11
Connections / settings
5 digital inputs (e.g. push button, switch, relay contact, ...). Input is generally "high" (1), connection to GND makes the input "low" (0)
Analogue inputs (e.g. temperature sensor, potentiometer, ...)
If the jumper is mounted, then you can use the internal voltage and adjust it using RV2/RV1. If the jumper is not mounted you must use the external voltage A2/A1.
Setting of the internal voltage for input A1.
Setting of the internal voltage for input A2.
Address selection, open = 1, closed = 0 Analogue outputs. Digital outputs
USB connection to computer
Select the correct address in the test program
DIGITAL OUTPUTS 8 open collector contacts, to be connected with suitable inputs.
ANALOGUE OUTPUTS 2 analogue outputs with an output voltage between 0 and +5V (impedance 1K5). 2 PWM outputs with a pulse width modulation between 0 and 100%.
REMARK: the analogue outputs and PWM outputs are al-ways activated /deactivated together.
1
2
3 4
5
6
7
8
9
10
12
• Start “Setup.exe”, this software is located at the folder c:\.... From the Velleman Software CD. If the necessary software is not included or if you want to check for updates, you can always download it for free from our Velleman Website www.velleman.be
• An installation wizard will guide you trough the installation procedure.
• By default the software is installed in the folder : ‘C:\Program Files\Velleman\K8055’
Software installation & test
20. Demo-software installation
Fig 2.0
13
The included demo software makes it easy to experiment.
Start by selecting the address : tick off SK5 and/or SK6 (see address selection).
ATTENTION : Execute these settings before connecting the kit with the computer or before booting the computer.
Connect the USB cable. LED LD3 'Power' lights up if the connection has been exe-cuted properly. After startup LD4 (output 4) will flash momentarily to indicate that the circuit works as it should. Start the program 'K8055_Demo.exe'.
Next press the 'connect' button to connect the K8055 with the computer. The message "Card x connected" is displayed if the connection is successful, see fig 3.0.
Test procedure
21 Test procedure
SK5 SK6 ADDRESS ON ON 0 OFF ON 1 ON OFF 2 OFF OFF 3
FIG 3.0
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Test procedure
You can now simulate the inputs via push buttons Inp1 through Inp5. The matching check box remains ticked off as long as you keep one of the push buttons pressed down. Always tick off the check box for the matching output if you wish to test a digital output. You can also conduct this procedure automatically : press the 'output test' button or activate all outputs with the 'Set all digital' button. Press the 'output test' button to test all digital outputs automatically. Test the analogue outputs with the 'set all analog' button and modify the output voltage with DA1 & DA2 Counter 1 & 2 are hardware integrated 16-bit converters, they are triggered by INP1 & INP2. You can test the counter with push buttons Inp1 and Inp2 : the counter adds 1every time one of these two buttons is pressed. The debouncing control allows you to determine the reaction time of the counter (0ms - 2ms - 10ms - 1000ms). You can use the internal analogue voltage to simulate the ana-logue input via potentiometers ATT1 (RV1) & ATT2 (RV2). The scroll bars AD1 & AD2 change on the screen whenever you adjust the position of the potentiometers. The "digital" value (0 to 255) of this internal analogue voltage can be read directly under the scroll bars.
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22. Schematic diagram.
Schematic diagram
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Modifications and typographical errors reserved © Velleman Components nv. H8055IP - 2003 - ED1
23. PCB layout.
PCB
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